Refrigerating cabinet structure



L. A. PHILIPP REFRIGERATING CABINET STRUCTURE April 20, 1954 12 Sheets-Sheet l Original Filed Sept. 22. 1948 Fis-Z www rranwfr -p-rlTm A. PHlLlPP 2375387 REFRIGERATING CABINET STRUCTURE Original Filed Sept. 22. 1948 v12 Sheets-Sheet 2 74 /o i "a' A I o /0 6 6 A IN V EN TOR.

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REFRIGERATING CABINET STRUCTUR original Filed sept. 22. 194s 12 sheets-sheefn Patented Apr. 20, 1954 REFRIGERATIN G CABINET STRUCTURE Lawrence A. Philipp, Detroit, ,Mich., assigner to Nash-Kelvinator Corporation, Detroit, Mich., a corporation of Maryland Original application September 22, 1948, Serial No. 50,472, now Patent No. 2,613,509, dated ctober 14, 1952.

This invention relates generally to refrigerating apparatus and more particularly to cabinets therefor.

The present invention is a division of my copending application, Serial No. 50,472, filed September 22, 1948, for Refrigerating Apparatus, now Patent No. 2,613,509, October lll, 1952.

It is an object of the present invention to provide a refrigerator cabinet of improved construction both as to the whole cabinet and to the several structural parts thereof.

Another object of the invention is to provide an improved refrigerator cabinet which is light in weight without sacrificing the desired sturdiness and rigidity required of such cabinets.

'Another object of the invention is to provide a refrigerator cabinet of an improved structural character to reduce its cost and to facilitate its assembly.

Another object of the invention is to provide an improved refrigerator cabinet frameworkincluding a base and front wall frame for reinforcing a cabinet casing Aand also for supporting cabinet compartment liners.

Further objects and advantages of the present invention will be apparent from the following description, reference being had to the accompanying drawings, wherein a preferred form of the present invention is clearly shown.

in the drawings:

Fig. 1 is a'front view of a household typegof f refrigerator embodying features of my invention;

Fig. 2 is a vertical sectional view of the refrigerator;

Fig. 3 is an enlarged front View of the refrigerator having parts broken away and in section to show certain features of the invention;

Fig. 4 is a fragmentary, vertical sectional view having parts broken away of an upper portion of the refrigerator;

Fig. 5 is an enlarged, fragmentary sectional View of an upper portion of the refrigerator, taken along the line 5-5 of Fig. 3;

Fig. 6 is a fragmentary rear View having parts broken away and in section of an upper portion of the refrigerator; fr

Fig. 7 is a fragmentary sectional view of a detail of the refrigerator, taken along the line 'l-l of Fig. 6;

Fig. 8 is a horizontal cross sectional view of vthe refrigerator, taken along the line 13.-.-8 of y Divided and this October 19, V1949, Serial No. 122,177

5 Claims. (Cl. (i2-417,3)

Atively along the lines yIll-, Hl,

application4 Fig. 9 is a fragmentary, vertical sectional View of alower portion of the refrigerator;

Figs. 10,11, 12, 13 and 14 are fragmentary cross sectional views of thevrefrigerator, taken respec- Il--I I, i2-I2, I3'-|3 and Illi4 of Fig. 3;

y Fig. 15 is an isometric view of cabinet frame structure of the refrigerator; p

Fig.,16 is an isometric view of units of the refrigerator including the refrigerating system;

Fig. 17 is a view similar to Fig. 2 showing a modified form of theref'rigerator; n

` Fig. 18 is a rear view of the modification, having parts broken away and in section;

Fig. 19 is a horizontal, cross sectional view of the modified refrigerator, taken along the line Fig. 20 is .an enlarged, vertical sectional View 'of anv upper portion of the refrigerator taken along the line 20--20 of Fig. 18;

l A Fig. 21 isa fragmentary, horizontal sectional view of the refrigerator, taken along the line 2l--2I ofFig. 18j

Fig'. 22 is a detailed sectional View, taken along 'the une 22-22 f Fig. 21; and

Fig. 23 is an isometric view similar to Fig. 16 showing the refrigerator units including the refrigerating system.

Referring to the drawings and first to Figs. l to 16 inclusive, there is shown a household type of refrigerator having a cabinet, designated generally byy the numeral 2U. The cabinet 2li comprises,l in general, a casing 22, a casing reinforcing frame 211,` a liner or'spacer 26, and a second liner or shell 28. The frame 24 is an upright structure which is supported by and within the casing 22 at the front of the cabinet and in turn supports the liners 26, 28. These liners 26 and 28 arev supported by the frame 24 in vertical spaced relationship within the casing 22; the liner 26 being disposed immediately above the liner 28. Interposed between the casing 22 and the liners 26, 28 is heat insulation 30 which may be of any of the suitable well-known types for decreasing heat leakage into the interior of the cabinet. Also, heat' insulation 32 is provided between the adjacent bottom and top walls respectively of the'liners 26 and 28, extending to the cabinet upright walls as a partition to decrease heat exchange between the liners.

'I'he'linerl 26 retains the insulation 30 in' place and defines a' freezingV or low temperature evapbase 66.

3 orator compartment 3i in the upper region of the cabinet. Adjacent the bottom of the cabinet, a horizontal partition 3S is provided which coopcrates with an upper portion of the liner 28 to form a food storage compartment 38 and cooperates with a lower portion of the liner 28 to form a high humidity compartment 40. The high humidity compartment 4I! is provided primarily for the storing and preserving of fresh vegetables in a moist state. The partition 36 is slightly spaced from the liner to allow for limited air circulation between the food storage compartment 38 and the high humidity compartment lMI. An upper door 42 is provided for closing the compartment 35i and a lower door 44 is provided for closing the food storage compartments 38 and 453. These doors `ft2, 44 may be hung by suitable hinges 46 on the casing reinforcing frame 24 of the cabinet. As shown more clearly in Figs.

2 and 9, the cabinet casing. 2-2. is formed,` adjacentv the bottom thereof, to provide a machinery cornpartment 48, immediately behind the high humidity compartment 4i).

In the food storage compartment 38, a number of shelves t maybe supported on rails 52, secured to the sides of the liner 28. Inv the present cabinet construction, the uppermost shelf extends from the liner rear wall only partway toward the front of the cabinet to provide clearance, forwardly of the shelf for tall articles, bottles, etc. on the shelf below. 'Ihe narrow shelf may be supported adjacent its forward edge by uprights '55, supported on the shelf,.immediately below'the uppermost shelf. These shelves 5B are preferably Vmade of an impervious material, such as glass,

for the purpose of limiting circulation of air throughout the food storage compartment. Below the lowermost of the shelves 5i! is the shelf partition 36 which separates the food storage compartment 38 and the high humidity compartment it from each other. This shelf partition 36, like the shelves 5, is preferably made of impervious glass for the like purpose of limiting circulation of air betweenthe two compartments.

'In the high humidity compartment 40, food containers, such as a pair of 'drawers 5E and a tiltable bin 58 may be provided; the drawers preferably being laterally positioned and spaced above thebin, as shown.

The casing 22 is a box-like structure which may r be made of sheet material, such as sheet steel. As shown, the casing has a top wall side walls 52, a rear wall Sli and a bottom wall or cabinet A lower portion 8 of the casing rear wall E@ is inclined forwardly and downwardly to the casing bottom wallv 66 providing a common dividing wall between the high humidity compartment iii and the machinery compartment 8; a corresponding lower portion of the adjacent liner rear wall being likewise inclined. The casing bottom wall GIS-may be formed with upturned reinforcing fianges, including a, front flange 10, a rear flange 'I2 and opposite side flanges 14. Inturned,r horizontal flange portions 76, 78 are formed respectively on the front and rear bottom wall fianges 7i), 'I2 Vfor additional'reinforcement and to provide seating surfaces. Intermediate the casing bottom wallflanges Iii and 12, the bottom wall 66 is preferably provided with an upwardly directed reinforcing rib 86 which may extend substantially entirely across the width of the casing. Elongated openings 82, 84, adjacent and extending longitudinally of the rib lSii are cooling the same. Forwardly of these openings 82, 84, the casing bottom wall G may be reinforced, as at 86. A rear portion of the casing bottom wall 66 also serves as a bottom wall of the machinery compartment 48, as shown for example in Figs. 2 and 9.

The upright frame 24 of the cabinet comprises, in general, a pair of laterally spaced upright members 88, a top cross member SI] and a lower cross member 92. The uprights 88 seat at their lower ends on the casing bottom wall or base 65, respectively at the front corners thereof, formed by the anges 'i9 and 12. Preferably, the frame uprights 88 are of channel section for strength and rigidity and are welded to the base flanges 'I0 and 1'4 and to the casing sides 62. In addition, angle members or gussets 94 may be welded to the bottom wall. flange l! and to the frame uprights 88 to brace the frame members. The top cross member 9D of the frame 24 may be of channel section having downturned ends which may be butt welded or be otherwise secured to the upper ends of the: frame uprights 88. Also, the frame cross member 92 may be of channel section and may have extended T-shaped ends 96 secured, such as by welding, to the frame uprights 88. This cross member 92 is disposed just forwardly of the insulation partition 32 between the compartments 3 and 36 to reinforce the frame and casing structure in this region. It will be seen that the upright frame 2i and the casing bottom wall or base E5 of the cabinet comprises an L-shaped supporting structure which together with the casing walls form a rigid cabinet structure.

The refrigerating apparatus, in the present instance, is of the so-called primary-secondary type, although it will be understood that other multiple temperature systems may be used with the present refrigerator cabinet, if desired. The primary system comprises, in general, a refrigerant evaporator 38, a refrigerant motor-compressor unit It and a refrigerant condenser |32. As shown in the drawings, the evaporator 98 is supported by the top wall of the liner 3Uand by the frame 24 within the cabinet compartment 34. The evaporator 98 may comprise a sheet metal container I4 and an evaporator coil or conduit |05. Preferably, the evaporator coil Iis wrapped or wound about the container I04 in contact with the top, bottom and sides thereof for good, heat transfer efficiency. Flanged U clamps I'l may be used to clamp the evaporator coil Iii to the container top, bottom and side walls, the flanges of the clamps preferably being welded to the container. The container IM is of box-like shape and is preferably of a size to occupy substantially the entire compartment 3Q of the cabinet. An outturned flange It is provided on and around the front edge of the evaporator container H34 to receive and overlapv with heat breaker strips IIU which close the spaces between the evaporator and the casing at the front of the cabinet. Outer marginal portionsof the breaker strips I l) engage in andare retained by channels I I2 which are formed on and extend. around the front edge of the cabinet casing 22. The casing channel I I2 is disposed just forwardly of the casing frame 24 and these parts are preferably welded or otherwise suitably secured. together. spaced tie members I Hlare provided for attaching the evaporator 98 at the front thereof to the casing frame 24.

These tiev members H4, like the breaker strips ing' 'rsheet metal screws l I5 may be used forse- .curing `the tie vmembers ||4 .to the evaporator flange |08 and to the frame 24. Adjacent the rear of the'evaporator 58, brackets I 6 are secured -to the underside thereof to support. and secure the evaporator to theupper ends of.a.pair of laterally spaced supporting members |20 carried by thertop wall of the liner 30; the supporting members preferably being made of a low heat vconducting material such as phenolic. plastic. -Immediately beneath the evaporator 98, a pan 99 is provided which I arrange to serve, among other functions, as a drip receiver during the defrosting periods of the system.. Like the evaporator 98, the pan 99 is supported at its rear'edge by the spacers |20. The evaporator supports |20 extend. upwardly from the top wall of the liner 28 through the insulation 32 to engage the' under side of the drip pan 99 and the brackets. I8 may be secured to the supports and to the drip pan -by screws |24 or by other suitable means. l

In the container ofthe evaporator 98, foods to .be frozen or preserved at low temperature, ice trays, etc. (not shown) may be stored. Because .of the low temperature maintained by this freezing evaporator 98, I provide the insulation'. spacer .26 of Vopenwork material, such as wire screening, so as to allow moisture laden air, which leaks from externally of the cabinet through casing .joints into the insulation, to pass freely through vthe insulation into the freezing compartment and .freeze out on the evaporator 98 instead of collect- -ing as frost in the insulation and decreasing the effectiveness thereof. The screen spacer 26 has a top, sides and back; the sides and back extend- .ing down into the drip pan 99 which has the additional functions of supporting the screening and ,forming the bottom wall of the evaporator compartment 34. While I prefer to use a wire meshlike spacer, it will be .understood that one or more retainer strips or a usual type liner pro- .vided with apertures therein may be employed lwith substantially the same degree of effectiveness.

Like the evaporator container |04, the food lstorage compartment liner .28 lis preferably provided with an outturned flange |48 for connection by spaced tie members |50 to the frame 24 .and to the base flange 10. Also, the liner 28 may .be attached at Aits corners to the frame lower 'f .gussets 94 and to similar gussets formed on the .intermediate crossmember 92 of the frame. by fscrews or by other suitable means. The heat .breaker strips I close the openingsbetween the lfront edges of the liner 28 and the casing 26; the lbreaker strips being held by. screws |52 to the liner flange |8 and having outer portionsv retained in the channels ||2 of the cabinet casing. With particular reference to Fig. 5, it will be seen .that the breaker strips ||0 at the front edge of .the partition 32,`engage in retainer channels |54 immediately forward of the frame cross member `92. These channels |54 are formed in the top and bottom edges of a nish strip |56 whichis secured to and covers the frame cross member 92. In order to prevent condensation occurring on the outer surface of the finish strip 34, I provide a heating element |58 to keep the temperaiture of the finish strip, and other parts in the 4region, above the temperature at which condensation might take vplace. The heating ele- .ment |58 is preferablyl an electrical resistance wirewhich may bevconnected in `the electric cir- .cuit of the compressor :motor such that the unit will be energizedat all times that the refrigera- '6 tor isfinv use or is plugged in toa source of power. I locate the `heater |58 within the frame cross member 92 and extend it substantially entirely coextensive of the width or" the frame so that the nish strip |56 will be affected -over Vits entire length by the heating element |58.

The heating element |58 may be heldin place against the inner surface of the cross member web by a smaller channel retainer |60 secured therein.' Preferably insulating material |62.is vprovided in the cross memberv 92 behind Vthe heater ,|58 so as to direct the heat toward the nishstrip |56 and adjacent associated-parts, away from the interior of the cabinet. l

, The secondary refrigerating system comprises, ga refrigerant evaporator |64 for cooling the food storagefand high humiditycompartments, anda heat exchanger |06 for operatively connecting the secondary evaporator to the primary refrigverating system. The evaporator |54, preferably in the form of a. sinuous coil, is arranged to extend along the rear wall of thefood storage compartment liner 28 and at the top of the linerj is arranged to extend partly along the liner sides as bestillustrated in Fig. 16. By this arrangement, the upper portion of the liner 28 is refrigerated to a lower temperature than the lower portion, since the lower portion has the coil only on the rear wall of the liner.y rllhe heat exchanger |66 is located adjacent the topof the liner 28 andrearwardly thereof; the heat exchanger beingembedded in the cabinet rearwall insulation as .b est shown in Fig. 5. The heat exchanger |65 comprises, in general, an elongated refrigerant container |61 and a refrigerant conduit |68,V As shown in Figs. 6 and 16, the heat exchanger container |61 extends across the cabinet rear wall substantially coextensive with the freezing evaporator 98 and is disposed on a slight angle tothe horizontal to induce refrigerant circulation. in one direction. Preferably the container |50 is a casting having a flange |10 which may be provided with elongated recesses to receive the vconduit |68 so as to effect eiicient heat transfer relationship between the parts. A clamp 1| may be held by screws to the casting flange |10 to hold the conduit |68 to the casting. against thelwall ,surfaces of the conduit receiving grooves. Liquid refrigerant is supplied from` the lccndenser |02 through a. capillary tube |12Qtoftlf`ie primary refrigerating system evaporator 9.8.and returns to the compressor |00 through a return conduit |14. A portion of the capillary tube |12 may be fastened to the return conduit |14 so as to cool the refrig-:rant en route. to the primary system evaporator from the condenser. The vreturn conduit |14 is connected to the upper'end of a refrigerant accumulator |16; the lower 'end of the accumulator |16 being connected to the outer end, as at |18, of the evaporator coil'A |06. A length of conduit may be used as the accumulator and be secured to the rear wall of the evaporator 94 by clamps |19 or by other suitable means. The accumulator or conduit |16 extends as a refrigerant passage or duct from. an upper inlet end thereof downwardly and across therea'r wall of the evaporator and is bent to return lto the outlet |18 of the evaporator. From the rear of the cabinet, the accumulator has the form. of a U on its sides with the sides diverging. Prior to passage of the refrigerant to the evaporator coil |06, the refrigerant passes through the heat exchanger tube |68, absorbing heat from `fthe refrigerant in the larger heat exchanger container l". er Secendery. portion .Qf the System- 'cr-cremes.'

'This container |161 'isrcormectedl' atf ita-opposite endsrespeetively to opposite endsuof the second;- ary systemevaporator' Hilti Thus, heat: isabsor-bed' from the liner 22v by: the refrigerant vin theevaporat'or maand is given uplat .the heat exchanger tox the primary' refrigerating system for ultimate dissipation by the condenser L22 thereon l The-'condenser |02 issecured tothe inner surface of af flueor stackv member lefliwhichs: provided behind: the-machinery compartment 43. to

. induceI upwardilow-l of air therethrough. Preferably, theue-member |84 ism-ade of sheet .metal having intur-ned side flanges,` outwardlyY bent, as atl |86', to receive screws` or other suitable means for-securingthe flue member to the casing-rear wall. The condenser |02 may be bent and arrangedfto extend1 sinunuslv over a large partof the Yflue member area tov utilize the same; for efficient dissipation of the heater condensa-tionftoatmosphere; Any suitable; cement or other securing means maybe used to/secure the condenser |02 inintimate heat relationshipv with the inner wall surface of the ue member.

Carried by and at the lower edge of the flue memberV |84 is a horizontal base Sil for supporting themotor-compressory unit |06 sc that the motorcompressor and flue member |84 may beremoved as a unit from thecabinet. Angle member supports- |81 attached to the forward edgeof the r base F-, securethe baseto the flue member |84. The motor-compressor'unit los is also supported on the rear flangeV 'i8 ofthe cabinet bottom wall orbase, the motor-compressor base being secured by brackets- |9-| to the cabinet base?. To aid further in dissipating heat from the primary system, a number of channel-likens |92fmay be provided and be secured with their channel webs fiat against the upper portion of the motor-compressor casing so that the channel sides or nns project substantially radially.

The freezing evaporator 98 is removable as a unit from the cabinet', through an opening |24 in the casing rear wall adjacent the top thereof. Normally, the opening |24 is closed by a closure panel |96 which may be held in place by screws (not shown) or by other suitable means. A gasket |93 of. rubber or other suitable displaceable resilient, material may be provided between the closure member |96 and the casing rear wall. After the closure panel |9i is removed, a section 20.0 of the cabinet insulation containing 'they heat exchanger 156' is removed and then a rear section 202 of the screen liner is removed after which the evaporator may be removed from the cabinet.

A drain pipe 204 leads from the bottom of the drip pan, 99 downwardly through the insulation to empty into a recess. 28e provided in the rear wall `of the liner 28. On defrosting of the system, Water flows down the liner inner surfaces into a channel section trough 2H! secured to the liner in. the high humidity compartment 43. The trough 2lllis provided with a spout or lip 2|2 directed to empty the water into a removable container 2 I4 which may be hung on the rear wall of the vegetable bin 58 beneath the spout 2|2.

Referring now to the modification shown in Figs. 17 to 24 inclusive, the cabinet shown comprises, in general, a frame. 2lb, a sheet metal casing 2|8, a linerV member or spacer 220and a liner member or shell 222. The liner 220 lforms an upper freezing compartment 224 and the liner 222 forms an intermediate temperature, food storage compartment 226, and a high temperature, high humidity compartment 228. Between thefbcttom anditop wallsrespeetiizcly .ofethelinens 220,. 222 insulation 228 is;proyidedaandrarranged toifonnc. ahorizontal partition betweenthe liners. Also', insulation;23i|gis1providedbetweenz theliners and. thecasing 2,18. to.A decrease heat leakage. into the. interior` of: thecabinet.` Any suitable Wellknown type-ofheatninsulaton may be. used.. At thefrontV of the cabinet, an.A upper door 2,32' is provided for closing the accessfopening, tothe freezing zcompartment224. and alower door' v231km providedfor closing the access.- opens-.tacompartments22dandz22.. 'llheseidoors=232, 2'34zmay be; hung` on one side of the.; cabinet. by: suitable hinges (notlshownlt, T hefreczing compartment door 232 includes; an innerpanel- 238 which is formed with. a centrallyy located proj ection. 2.4i) whichlextends, into the 4freezing. compartment havinetaccncave-convex,endwall 2.4.4.

In. the food. storage compartment 226,. enum: ber of 4shelves 242vv may bassu-pported on` rails` 244 securedto. the. sides of tbelincr 2.22 In the presf ent, cabine t as:V in the; previously describedl cabnet, the-uppermost; of the shelves. 242 vextends from the; liner rcarfwall only: part. way-toward theA front of the cabinet isc-.provide clearance, forwardly of this. shelf for tall;articles,d bottles, etc., on the shelf below. The narrow shelf' may be supported adjacentA its forwardv edge by uprights 246, resting on the shelfy immediately. belowl the uppermost Shelf.. These. shelves. 242-.' arepreferablymade of an. impervious material, such. as'. glass, for the Dulposeof, limiting circulation of" air throughout the food storage compartment. Below..- the low.- ermost of the shelves 2-'4'2 isa shelf-partition 248 whichseparates. the food storage compartment 226. and the high humidity; compartment 2,28.. This shelf-.partition 248,.,ljke the.- shelves 242, is preferably made of glassv forV the like vpurposeof limiting circulation of air between the twoI com-.- partments.. In. the high humidity compartment 228. food containers, such as a pair of drawers 2 5()A anda bin 252 may be provided; the` drawers preferably bein-g laterally positioned and spaced above the bin, as shown.

Within the freezing compartment 224', I provide a storage compartmentV forming. container 254. The: container- 2541s. preferably box-shapedl having. a top wall 256, bottom wall 2.58., end walls 260 and a rear wallv 282. These walls are spaced from the corresponding walls of the liner 220 to decrease heat exchange by conduction therebetween and to prevent, among other things, formation of frost` and resulting wetting of the cabinet wall insulation. At the front ofthe container 254 outturned 1ianges264 of the container top, bottom and sides receive and overlap with inner marginal' port-ionsl of heat breaker strips 266. These breaker strips 266 have outer marginal portions thereof engaging in channels 268 formed out of the casing around the outer periphery orfront thereof. Inaddition to functioning as heat insulators, between the casing-ZIB and the liners 220, 222, the breaker strips 2-65 give a-nished appearance to the. access openings of the freezing and food storage compartments. To insure against leakage of air into the cabinet insulation atthe joints of the breaker strips 266 with the container flange2-64, I provide a gasket 210 therebetween. The gasket 212 may be made of any suitable displaceable sealing material, such asfrubber, and may e held displaced between the breakerv strips and container ange 264 by self threading or sheet metal screws 212. As is shown more clearly in Fig. 20, the projection 240 of the freezing compartment door 232 extends into the access opening defined by the breaker or finish strips 266. This projection 246 is formed with curved top, bottom and side walls 214 which in cooperation with the curved breaker' strips forms a throat to decrease cold air passing therethrough and consequently to decrease condensation on front surfaces of the cabinet inwardly of the door gasket. Also, the gasket 222 functions to decrease the flow area of said throat, thus aiding in decreasing passage of cold air therethrough.

The freezing compartment storage container 254 is refrigerated by a refrigerant evaporator 216 of a primary refrigerating system which includes a refrigerant condensing element designated generally by the numeral 218. In order to refrigerate the container 254 efficiently and at the same time provide for removability of the evaporator 218 from the cabinet, I make the evaporator of U-shape in cross section to fit over` or receive the container 254. To insure further for eicient heat transfer relationship between th'e evaporator 216 and the container 254, I make theU-shaped evaporator of two L-shaped parts and clamp these parts together and to the top and rear walls of the container. The upper L-shaped part of the evaporator comprises, a relatively long leg 280 which lies flat against the upper surface of the container top wall 259 and a relatively short leg 282 which lies flat against the outer upper surface of the container rear wall 262. Similarly, the lower L-shaped part of the evaporator 216 has a relatively long, sheet metal leg 284 engaging at against the underside of the container 254 and has a relatively short, sheet metal leg 286 engaging iiat against the lower exterior surface of the container rear wall 258. These L-shaped evaporator parts or units are formed having sinuous refrigerant passagesl 233, 246 extending respectively along the upper and lower walls or legs 286 and 284 of the evap- Connecting passages 292 formed in oratorf 216. the rear walls or legs 282 and 286 of the evaporator include a refrigerant header 284 and a refrigerant accumulator 296. Welded or otherwise suitably secured to the adjacent evaporator legs 282 and 2186 are L-shaped clamp members 298 which may be drawn together by nuts and` bolts 366 to hold the L-shaped parts of the evaporator tightly against the opposite surfaces of the container 254. Additional vclamps 362 are provided to clamp the upper and lower evaporator legs 288, 284 at against the container 254 to insure good surface contact therebetween for eincent heat exchange relationship. The clamps 362 may be elongated strips arranged to overlap and engage outer marginal portionsv of the side edges of the evaporator legs 286 as shown, for example, in Figs. 22, 23. These clamping strips 362 may be made of spring metal and may be drawn down to the container top wall 256by self' threading or sheet metal screws 364.

A refrigerant evaporator 326 of a secondary system is provided to cool the food storage compartments 226, 228 by absorbing heat from the liner 222 of the compartments. As shown, the evaporator 326 is preferably of the coil or conduit type and isarranged in engagement with the outer surface of the liner 222. Cement or other suitable means may be provided for vsecuring the evaporator coil 326 to the liner 222 in good heat exchange relationship therewith. Adjacent the bottom of the cabinet liner 222, the rear wall thereof has a forwardly and downwardly inclined portion 322 beneath Which the. condensing 10 f element 218 is disposed. Attached to the inclined portion 322 of the liner 222, the evaporator coil 320 extends upwardly across the back of the liner and also extends along portions of the liner opposite sides adjacent the top of the liner (see Fig. 24). The evaporator coil 326 comprises, a secondary refrigerating system which is in heat exchange relationship with the primary system by means of a heat exchanger or evaporator 324'. Any suitable type of heat exchanger may be used such as the type hereinbefore described in the preferred embodiment or the type shown in my Patent No. 2,361,792. As is well known, in primary-secondary systems, the heat exchanger functions to condense and absorb heat in the secondary system, the heat absorbed ultimately being dissipated by the primary system condensing element. The heat exchanger or evaplivered by the condenser 328 to the evaporator- 216 through a small diameterv or capillary tube 332 which, as is well known, functions to supply proper amounts of refrigerant to the evaporator to maintain desired temperatures. Between the condenser 328 and the evaporator 216 a heat absorbing portion of the capillary tube 3321s arranged in heatexchange relationship with the secondary refrigerating system at the heat exchanger 324. As isjshown more clearly in Fig. 24, the portion of the capillary tube 332 between the condenser 328 and the heat exchanger 324 is arranged in good heat transfer relationship with a refrigerant return conduit 334 of the primary system for the purpose of cooling the liquid refrigerant en route to the freezing evaporator 216. From the heat exchanger 324, a refrigerant supply conduit 336 of larger ilow capacity than the capillary tube 332 delivers refrigerant to the -inlet of the evaporator passage 288 for passage therethrough; the gaseous refrigerant being with-v drawn from the refrigerant accumulator 296 for return to the condensing element through the return conduit 334.

The arrangement for draining and collecting water from the freezingevaporator 216 on defrosting of the system is the same as that described in connection with the refrigerator of Eigs. l to 16V and therefore like parts are desig nated by like numerals.

In the rear wall of the cabinet, the freezing compartment liner 226 is provided with a removable rear wall-or closure member 338, immediately behind the evaporator 218. Similarly, the cabinet casing' 2I8 isprovided with a removable panel or closure member 348 which may be at-f tached to the cabinet by screws 342 or by other suitable means. Upon removing these closure members 338 and 346 together with the insulation therebetween, access may be had to the rear of the evaporator 2'56 for the purpose of removing the evaporator from the cabinet through the back thereof. To remove the evaporator 216, clamps 382 are loosened; access to the screws 364 holding the clamps being had through the access opening closed by the door 232. Also, the clamps 298 at the back of the evaporator 216 are loosened or yreleased after which the evaporator may be pulled `rearwardly from the container4 254,

aferra-,cerv

out of the cabinet. The container 254 and the evaporator 216, carried thereby, are supported by the top wall of the vcabinet liner 222; the container 254 being directly mounted on brackets 330, located at the rear ofthe freezing compartment, as shown in Fig. 2u. These brackets 330 seat on and are secured to spacers 331 which in turn are supported on and are secured to the top wall of the liner 222. It will be seen that the container 254 extends beyond the side edges of the evaporator 216 and that the Abrackets 23D are located just outwardly of the evaporator edges for clearance by the evaporator 216 when the evaporator is pulled rearwardly from the cabinet.

From the foregoing description, it will 'be noted that I have provided an improved cabinet structure for supporting cabinet forming members and refrigerating units. It Vwill also be noted that I have provided a structurally improved cabinet which is strong and rigid yet may be light in weight. Furthermore, I have provided a refrigerator cabinet of a structural character which facilitates its assembly, particularly in viewpf the arrangement for securely supporting thev cabinet` liners and evaporators on the front wall reinforcing frame.

Although preferred and modified forms have been illustrated, and described in detail, it will be apparent to those skilled in the art that various other modifications maybe made therein Without departing from the spirit of the invention or from the scope of the appended claims.

I-claim:

1. In a refrigerator, a cabinet casing having a front inturned peripheral flange, a freezing evaporator within said casing including a box-like container having an edge extending about an access opening thereto .adjacent said peripheral flange, heat breaker strips connecting said edge and said peripheral flange, a liner within said casing forming Walls of a food storage compartment and having an edge extending about an access opening adjacent said peripheral flange, heat breaker strips connecting said liner edge and said peripheral flange, a partition separating said container and said liner and having a front edge, an upright frame disposed behind and secured to said peripheral flange, said frame including a cross member overlying the front edge of said partition, a finish strip overlying said cross member in heat conducting relationship therewith and secured at opposite endg to said peripheral flange, and heat breaker strips connecting said finish strip and said container and liner.

2. In a refrigerator, a cabinet casing having a front inturned peripheral flange, a freezing evaporator within said casing including a box-like container having an edge about an access opening thereto adjacent said peripheral `iiange, heat breaker strips connecting portions of saidcdge and said peripheral ange, a liner within. said casing forming walls of a food storage compartment and having an edge extending abcutuan access opening adjacent said peripheral flange,

heat breaker strips connecting portions of vsaid,

liner edge and said peripheral ange, a partition separating said container and said liner and having a front edge, an upright frame disposed behind and secured in heat transfer relation to said peripheral flange, said frame including a channel cross member overlying the front edge of said partition, a heat conducting nish strip having a channel portion embracing said channel across member in heat` .conducting relationship and secured atopposite ends to said periph eral flange, and heat breaker strips connectingV another portion of the edge of said container toi said finish strip and connecting another portion of the edge of said liner to said finish strip` 3. In a refrigerator, a cabinet casing having a front inturned peripheral harige, a freezing evaporator within said casing including a box-- like container having an edge adjacent said peripheral flangel and extending about an access opening to the container, heat breaker strips connecting portions of said edge and said peripheral hange, a liner within said casing forming walls of a food storage compartment and having an edge extending about an access opening adjacent said peripheral flange, 'heat breakerstrips connecting portions of said liner edge and said peripheral flange, a partition separating said container and said liner and having a front edge, an upright frame disposed behind and secured to -said peripheral flange, said frame including a channel cross member overlying the front edge of said partition, a finish strip having a channel portion embracing said channel crossv member and having a portion forwardly thereof formed with oppositely directed sockets, anda pair of heat lbreaker strips engaging respectively in said sockets and connected respectively to other container and liner edge portions.

4. I-n a refrigerator, a cabinet casi-ng havinga front peripheral flange, a box-like container Within said casing having an edge extendingabout an access opening thereto adjacent said peripheral ange, `heat breaker strips connecting said edge and said peripheral flange, a liner Within said casing forming walls of a food storage compartment and having an edge extending about an access opening adjacent said periph eral flange, heat breaker strips connecting vsaid liner edge and said peripheral ange, a partition separatingsaid container and said liner and having a front edge, an upright frame disposed behind and secured to said `peripheral ange, said upright frame having ,a heat conducting cross member positioned in overlying relation to the front edge of rsaid partition to receive heat from a heat source to Aopp-pose formation of lfroston .adjacent surfaces, and heat breaker strips extending respectively from said container andliner to said cross member.

5. In a refrigerator, a'cabinet casing having a` front peripheral flange, a box-,like container within said casing having an edge extendingV about an access opening thereto adjacent said peripheral flange, heat breaker strips connecting said edge and said peripheral ange, a liner within said casing forming walls of a food storage compartment and having an edge extending about an access opening adjacent said peripheral edge, heat breaker strips connecting said liner edge and said peripheral edge, a partition separating said container and said liner and having a front edge, a reinforcing cross member extending along the front edge of said partition, said cross member having high heat conductivity to receive heat from a heat source, a nish strip overlying said cross member in heat `conducting relationship therewith to oppose formation vof frost thereon, and heat breaker .strips connecting said nnish strip and said container and liner together.

(References ron following page.)

Number Name Date Collins Sept. 20, 1932 Hofferberth et al. Aug. 15, 1939 Schweller July 2, 1940 Brouse Sept. 16, 1941 Nave Apr. 21, 1942 Dailey Nov. 3, 1942 Goulooze Sept. 21, 1943 Number 14 Name Date Rundell Oct. 12, 1943 Baker Nov. 16, 1943 Goulooze Nov. 16, 1943 Bergstrom Feb. 5, 1946 Johnson Oct. 28, 1947 Palmer 4et al Aug. 30, 1949 Philipp Oct. 11, 1949r Drake Nov. 22, 1949 

